Gaitonde air force research laboratory wright patterson air force base oh 454337521, usa 1. Maxwells equations a dynamical theory of the electromagnetic field james clerk maxwell, f. Here, faradays law and the amperemaxwell equation are used to construct lossy wave equations for both \\mathbfe\ and \\mathbfh\, respectively. This is accomplished by assuming we are in a homogeneous medium. Convergence of an explicit iterative leapfrog discontinuous. Timedomain maxwells equations are studied for the electromagnetic scattering of plane waves from an arbitrarily shaped cavity filled with nonhomogeneous medium.
The purpose of this book is to provide an uptodate introduction to the timedomain finite element methods for maxwells equations involving metamaterials. A discontinuous galerkin method is used for to the numerical solution of the timedomain maxwell equations on unstructured meshes. More tests need to be done to show the potential of the cese method for solving more complicated problems, such as those involving anisotropic media, dispersive media, and. For example, a timevarying current j on a linear antenna generates a circulating and timevarying magnetic. The originality of the idea of yee resides in the allocation. Introduction to maxwells equations sources of electromagnetic fields differential form of maxwells equation stokes and gauss law to derive integral form of maxwells equation some clarifications on all four equations timevarying fields wave equation example. Maxwells equations vector theorems constitutive relationships 2 basic theory generalized current derivation of poyntings theorem 3 the frequency domain phasors and maxwells equations complex power boundary conditions d. Introduction the conventional approach for numerically solving maxwells equations in the time domain has been the use of finitedifference methods in conjunction with orthogonal grids 14. Existence and uniqueness of the model problem are established by a variational approach and the hodge decomposition.
This page is designed to be a quick access to the relevant equations with proper notation and units. It has been widely used for electromagnetic simulation, for instance in radar cross sec tion computations and electromagnetic compatibility investigations. Analysis of timedomain maxwells equations for 3d cavities. Hagness, finitedifference timedomain solutions of maxwells equations, in wiley encyclopedia of electrical and electronics engineering, j. Since the first successful construction of a metamaterial with both negative permittivity and permeability in 2000, the study of metamaterials. Philosophical transactions of the royal society of london, 1865 155, 459512, published 1 january 1865. The direct adoption of the method to such maxwells equations, however, shows longtime instability. We introduce a simple method to accelerate the convergence. Nelson microelectronics research center university of idaho moscow, id 838441024, usa d. In this case, we can simplify matters by using maxwells equations in the frequencydomain. May 16, 2016 for over 100 years after the publication of maxwells equations in 1865, essentially all solution techniques for electromagnetic fields and waves were based on fourier.
The most widespread timedomain method for the numerical simulation of the maxwell equations is the nitedi erence timedomain method fdtd. Maxwells equations can be formulated with possibly timedependent surfaces and volumes by using the differential version and using gauss and stokes formula appropriately. The frequency domain outline 1 maxwell equations, units, and vectors units and conventions maxwell s equations vector theorems constitutive relationships 2 basic theory generalized current derivation of poyntings theorem 3 the frequency domain phasors and maxwell s equations complex power boundary conditions d. A vector finite element timedomain method for solving.
These equations have the advantage that differentiation with respect to time is replaced by multiplication by \j\omega\. Dec 01, 2008 in this note, we shall investigate the iim proposed by zhang and leveque to timedomain maxwells equations in media with material interfaces. This page is designed to be a quick access to the relevant equations with proper notation. Osa stretchedcoordinate pmls for maxwells equations in. Implicit dg method for time domain maxwells equations. Although the general emphasis is on interconnect problems, the method is applicable to a number of other transient electromagnetic field problems governed by maxwells equations. It has been widely used for electromagnetic simulation, for instance in radar cross section computations and electromagnetic compatibility investigations. Time domain simulation of maxwells equations by the method. The method of a compressed coordinate transformation is proposed to reduce equivalently the di raction problem into an initialboundary value problem formulated in a bounded domain over a nite time interval. Numerical solution of the timedomain maxwell equations. Phasor notation is a very convenient way to work with sinusoidal waveforms. Such a procedure would take into account all the effects of the system geometry and electrical properties, including transmission line effects. Time domain reflectometry theory computer engineering.
A new e ective dielectric tensor for anisotropic systems is introduced, and we also describe a technique for computing eigenvalues in the interior of the spectrum e. Request pdf timedomain finite element methods for maxwells equations in metamaterials the purpose of this book is to provide an uptodate introduction to the timedomain finite element. The method is exemplified by calculating the time domain response of a few typical planar interconnect structures to gaussian and unit step excitations. An implicit hybridized discontinuous galerkin method for. The spacetime cese method for solving maxwells equations in timedomain x. Numerical validations show that some preliminary success has been achieved. Stabilityof aleapfrogdiscontinuous galerkinmethod for time. Stabilityof aleapfrogdiscontinuous galerkinmethod for timedomain maxwells equations in anisotropic materials ade. A transparent boundary condition is introduced to reduce the problem to the bounded cavity. The equations provide a mathematical model for electric, optical, and radio technologies, such as power generation, electric motors, wireless communication, lenses, radar etc. The behavior of interacting electrons in a perfect crystal under macroscopic external electric and magnetic. On the immersed interface method for solving timedomain.
Our scheme is based on discontinuous galerkin method in spatial domain and cranknicolson method in temporal domain. Accelerated solution of the frequencydomain maxwells. Weile department of electrical and computer engineering university of delaware eleg 648 maxwells equations. An implicit hybridized discontinuous galerkin method for timedomain maxwells equations. The onestep explicit time integration methods, like leapfrog schemes, are computationally e cient per update cycle and easy to implement. Timeharmonic maxwells equations if the sources are timeharmonic sinusoidal, and all media are linear, then the electromagnetic fields are sinusoids of the same frequency as the sources. Stabilityof aleapfrogdiscontinuous galerkinmethod for. The attention to the development of highorder accurate methods for solving timedomain maxwells equations in complex geometries brings to the use of discontinuous galerkin dg methods 7. Timedomain finite element methods for maxwells equations in. Although the general emphasis is on interconnect problems, the method is applicable to a number of other transient electromagnetic field problems governed by maxwell s equations. As a result, absorbing boundaries which mimic its properties play a key role in making dgtd a versatile tool for various kinds of systems. In this note, we shall investigate the iim proposed by zhang and leveque to timedomain maxwells equations in media with material interfaces. Finite difference time domain fdtd methods for solution of.
This paper is intended to give a complete formula for the freespace time domain dyadic green s function tddgf for maxwell s equations. Jul 25, 2006 2005 high spatial order finite element method to solve maxwell s equations in time domain. Time domain simulation of maxwells equations by the. Convergence and stability of a discontinuous galerkin time. We start with maxwell s equations in time harmonic or phasor form, r. Chapter maxwells equations and electromagnetic waves. This approach yields exact gradients and is similar to the popular adjoint variable method but provides a significant improvement in both memory and speed scaling for problems involving several output parameters, as we analyze it in. It is well known that the use of such methods can produce very accurate results particularly when the domain is rectangular or almost rectangular. Timedomain finite element methods for maxwells equations in metamaterials jichun li, yunqing huang auth. The discontinuous galerkin timedomain method dgtd is an emerging technique for the numerical simulation of timedependent electromagnetic phenomena. We discuss the application of the forwardmode differentiation method to maxwells equations, which is useful for the sensitivity analysis of photonic devices. If the fields are in free space, then the same constititive relations are used but. Examples include fast evaluations of nonlocal conditions on symmetric and general boundaries, methods based on identifying and evaluating equivalent sources, and. The finitedifference timedomain method fdtd is todays one of the most.
Overview of maxwells equations electromagnetic geophysics. Finite difference time domain fdtd methods for solution. Numerical solution of maxwells equations in the time. The spacetime cese method for solving maxwells equations. The method relies on the choice of local basis functions, a centered mean approximation for the surface integrals and a secondorder leapfrog scheme for advancing in time. The most general approach to evaluating the time domain response of any electromagnetic system is to solve maxwells equations in the time domain. The vector potential approach is used in solving maxwells equations in td resulting in a new form. The equations are appropriate for em fields in matter. Timedomain maxwells equations, biperiodic structures, di raction gratings, wellposedness and stability, a priori estimates. Hagness, finitedifference time domain solutions of maxwell s equations, in wiley encyclopedia of electrical and electronics engineering, j. Numerical solution of the timedomain maxwell equations using. Timedomain finite element methods for maxwells equations. The maxwells equations in metamaterials are represented by integraldifferential equations.
Various components of the resulting 2nd order differential equations in time are discussed. Blockiterative frequencydomain methods for maxwells. In this paper, time domain finite element methods for the full system of maxwell s equations with cubic nonlinearities in 3d are presented, including a selection of computational experiments. The discontinuous galerkin time domain method dgtd is an emerging technique for the numerical simulation of time dependent electromagnetic phenomena. Maxwells equations are a set of coupled partial differential equations that, together with the lorentz force law, form the foundation of classical electromagnetism, classical optics, and electric circuits. For many applications it is necessary to model the infinite space which surrounds scatterers and sources. The spacetime cese method for solving maxwells equation in timedomain has been presented. Electromagnetics and applications mit opencourseware. The most widespread time domain method for the numerical simulation of the maxwell equations is the nitedi erence time domain method fdtd. The direct adoption of the method to such maxwells equations, however, shows longtime instability of the timedomain solution for some applications. For over 100 years after the publication of maxwells equations in 1865, essentially all solution techniques for electromagnetic fields and waves were based on fourier. Accelerated solution of the frequencydomain maxwells equations by engineering the eigenvalue distribution of the operator wonseok shin 1,2 and shanhui fan1. Timedomain maxwells equations in integral lecture 35.
An implicit hybridized discontinuous galerkin method for timedomain maxwells equations stephane lanteri, ronan perrussel to cite this version. Maxwells equations properties of materials integral form equations in scalar form transverse mode maxwells equations in 2d fdtd methods divergencefree numerical stability 18th and 25th february, 2014 ucd p. Time domain purpose here, faradays law and the amperemaxwell equation are used to construct lossy wave equations for both \\mathbfe\ and \\mathbfh\, respectively. A nondissipative staggered fourthorder accurate explicit. Allen taflove and finitedifference timedomain fdtd. Maxwells equations can be written in frequency or in time and in a differential or integral form. In this paper, timedomain finite element methods for the full system of maxwells equations with cubic nonlinearities in 3d are presented, including a selection of computational experiments. This paper is intended to give a complete formula for the freespace timedomain dyadic greens function tddgf for maxwells equations. Since the first successful construction of a metamaterial with both negative permittivity and permeability in 2000, the study of metamaterials has attracted significant attention from. Forwardmode differentiation of maxwells equations acs. Time domain finite element method for maxwells equations.
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